A versatile bistatic & polarimetric marine radar simulator

Author

Arnold-Bos, Andreas ; Martin, Arnaud ; Khenchaf, Ali

Author_Institution

Ecole Nat. Superieure d´´Ingenieurs des Etudes et Techniques de l´´Armement, Brest, France

fYear

2006

fDate

24-27 April 2006

Abstract

We present a versatile simulator for marine radars that can, in particular, be used in multistatic configurations. Today, most simulators modelize the sea clutter by a random noise; however, no obvious relation exists between physical parameters (e.g. wind speed or salinity) and the shape of the probabilistic law of noise. On the contrary, we modelize the whole acquisition chain: antennas and their polarization, the shape of the emitted signal, etc. Realistic sea surfaces are generated using the two-scales model on a semi-deterministic basis, so as to be able to incorporate the presence of ship wakes. We present pseudo-raw signals obtained with our simulator. These signals can be further processed and fed to a ship detection and tracking chain. We aim at using this simulation as a tool to benchmark these algorithms and improve them by adding knowledge on the physical uncertainties and the sensor imprecisions.

Keywords

benchmark testing; electromagnetic wave polarisation; marine radar; probability; radar antennas; radar clutter; radar detection; radar polarimetry; radar tracking; random noise; ships; antenna polarization; benchmark; physical uncertainty; polarimetric marine radar; probabilistic law; pseudoraw signal; random noise; sea clutter; sensor imprecision; ship detection; tracking chain; versatile bistatic simulator; Clutter; Marine vehicles; Multi-stage noise shaping; Polarization; Radar polarimetry; Radar tracking; Sea surface; Shape; Signal processing; Wind speed;

fLanguage

English

Publisher

ieee

Conference_Titel

Radar, 2006 IEEE Conference on

Print_ISBN

0-7803-9496-8

Type

conf

DOI

10.1109/RADAR.2006.1631862

Filename

1631862